Abstract
The subcellular localization of Arf family proteins is generally thought to be determined by their corresponding guanine nucleotide exchange factors. By promoting GTP binding, guanine nucleotide exchange factors induce conformational changes of Arf proteins exposing their N-terminal amphipathic helices, which then insert into the membranes to stabilize the membrane association process. Here, we found that the N-terminal amphipathic motifs of the Golgi-localized Arf family protein, Arfrp1, and the endosome- and plasma membrane–localized Arf family protein, Arl14, play critical roles in spatial determination. Exchanging the amphipathic helix motifs between these two Arf proteins causes the switch of their localizations. Moreover, the amphipathic helices of Arfrp1 and Arl14 are sufficient for cytosolic proteins to be localized into a specific cellular compartment. The spatial determination mediated by the Arfrp1 helix requires its binding partner Sys1. In addition, the residues that are required for the acetylation of the Arfrp1 helix and the myristoylation of the Arl14 helix are important for the specific subcellular localization. Interestingly, Arfrp1 and Arl14 are recruited to their specific cellular compartments independent of GTP binding. Our results demonstrate that the amphipathic motifs of Arfrp1 and Arl14 are sufficient for determining specific subcellular localizations in a GTP-independent manner, suggesting that the membrane association and activation of some Arf proteins are uncoupled.
Highlights
The subcellular localization of ADP-ribosylation factor (Arf) family proteins is generally thought to be determined by their corresponding guanine nucleotide exchange factors
GFP-tagged Arf1 amphipathic helix and Arl1 amphipathic helix did not show a Golgi-localized pattern in any of the expressing cells (Fig. S2, D–F and J–L; quantification is shown in Fig. S2M), suggesting that the amphipathic helix motifs from these two Arfs are not sufficient for the determination of specific subcellular localizations
We found that associations of some Arf proteins, Arfrp1 and Arl14, with membranes occur in the absence of GTP binding
Summary
The subcellular localization of Arf family proteins is generally thought to be determined by their corresponding guanine nucleotide exchange factors. By promoting GTP binding, guanine nucleotide exchange factors induce conformational changes of Arf proteins exposing their N-terminal amphipathic helices, which insert into the membranes to stabilize the membrane association process. Our results demonstrate that the amphipathic motifs of Arfrp and Arl are sufficient for determining specific subcellular localizations in a GTP-independent manner, suggesting that the membrane association and activation of some Arf proteins are uncoupled. Arf family proteins cycle between a GDP-bound inactive state and a GTP-bound active state They have similar structural organizations containing an N-terminal amphipathic helix motif and the switch domains. GTP binding causes conformational changes of the switch domains to mediate membrane recruitment of their cytosolic effectors
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